Issue 11, 2024

Graphene-based microelectrodes with bidirectional functionality for next-generation retinal electronic interfaces

Abstract

Neuroelectronic prostheses are being developed for restoring vision at the retinal level in patients who have lost their sight due to photoreceptor loss. The core component of these devices is the electrode array, which enables interfacing with retinal neurons. Generating the perception of meaningful images requires high-density microelectrode arrays (MEAs) capable of precisely activating targeted retinal neurons. Achieving this precision necessitates the downscaling of electrodes to micrometer dimensions. However, miniaturization increases electrode impedance, which poses challenges by limiting the amount of current that can be delivered, thereby impairing the electrode's capability for effective neural modulation. Additionally, it elevates noise levels, reducing the signal quality of the recorded neural activity. This report focuses on evaluating reduced graphene oxide (rGO) based devices for interfacing with the retina, showcasing their potential in vision restoration. Our findings reveal low impedance and high charge injection limit for microscale rGO electrodes, confirming their suitability for developing next-generation high-density retinal devices. We successfully demonstrated bidirectional interfacing with cell cultures and explanted retinal tissue, enabling the identification and modulation of multiple cells' activity. Additionally, calcium imaging allowed real-time monitoring of retinal cell dynamics, demonstrating a significant reduction in activated areas with small-sized electrodes. Overall, this study lays the groundwork for developing advanced rGO-based MEAs for high-acuity visual prostheses.

Graphical abstract: Graphene-based microelectrodes with bidirectional functionality for next-generation retinal electronic interfaces

Supplementary files

Article information

Article type
Communication
Submitted
17 Jun 2024
Accepted
27 Aug 2024
First published
04 Sep 2024
This article is Open Access
Creative Commons BY license

Nanoscale Horiz., 2024,9, 1948-1961

Graphene-based microelectrodes with bidirectional functionality for next-generation retinal electronic interfaces

F. T. Duvan, M. Cunquero, E. Masvidal-Codina, S. T. Walston, M. Marsal, J. M. de la Cruz, D. Viana, D. Nguyen, J. Degardin, X. Illa, J. M. Zhang, M. del Pilar Bernícola, J. G. Macias-Montero, C. Puigdengoles, G. Castro-Olvera, E. del Corro, S. Dokos, M. Chmeissani, P. Loza-Alvarez, S. Picaud and J. A. Garrido, Nanoscale Horiz., 2024, 9, 1948 DOI: 10.1039/D4NH00282B

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